1979
DOI: 10.1057/jors.1979.27
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A Preference Order Dynamic Program for a Knapsack Problem with Stochastic Rewards

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Cited by 58 publications
(10 citation statements)
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“…Another type of stochastic knapsack problem with reversed roles of constants and random values was discussed by a number of authors starting (to the best of our knowledge) with the paper by Steinberg and Parks [445] in 1979 and continued in the work of Sniedovich [438], [439], Carraway, Schmidt and Weatherford [72], Morita,Ishii and Nishida [351], Henig [222], Morton and Wood [352] and others. The general model arises in the context of a financial decision problem where every item corresponds to an investment project with a fixed investment requirement W j but stochastic future profits Pj which implicitly include the involved risk.…”
Section: Related Models and Algorithmsmentioning
confidence: 99%
“…Another type of stochastic knapsack problem with reversed roles of constants and random values was discussed by a number of authors starting (to the best of our knowledge) with the paper by Steinberg and Parks [445] in 1979 and continued in the work of Sniedovich [438], [439], Carraway, Schmidt and Weatherford [72], Morita,Ishii and Nishida [351], Henig [222], Morton and Wood [352] and others. The general model arises in the context of a financial decision problem where every item corresponds to an investment project with a fixed investment requirement W j but stochastic future profits Pj which implicitly include the involved risk.…”
Section: Related Models and Algorithmsmentioning
confidence: 99%
“…Example 6. We consider a stochastic integer knapsack problem taken from Steinberg and Parks (1979) with the size of the knapsack to be 30. Table 4 shows the weight and mean and variance information of the utilities.…”
Section: Discrete Choice Under Budget Constraintmentioning
confidence: 99%
“…Static versions of the stochastic knapsack problem have been studied. In these, the set of objects is known and the rewards and/or weights are random (Carraway et al 1993;Henig 1990;Sniedovich 1980Sniedovich , 1981Steinberg and Parks 1979). The objective typically is to maximize the probability of attaining some prespeci ed level of utility or reward.…”
mentioning
confidence: 99%